Odor Detection
Odorants are inhaled and dissolve in the mucus layer of the olfactory epithelium.
They bind to G-protein–coupled receptors (GPCRs) on the cilia of receptor neurons.
Each receptor neuron expresses only one type of receptor, but each receptor can bind multiple odorants.
Odorant binding activates a G-protein (Golf).
This stimulates adenylate cyclase, increasing cAMP levels.
cAMP opens cyclic nucleotide-gated (CNG) ion channels, allowing Na⁺ and Ca²⁺ influx.
Ca²⁺ opens Cl⁻ channels, amplifying depolarization.
If threshold is reached, an action potential is generated in the olfactory receptor neuron.
Neural Processing
Axons of ORNs converge onto glomeruli in the olfactory bulb.
Each glomerulus receives input from receptor neurons expressing the same odorant receptor type.
Mitral and tufted cells relay the signal via the olfactory tract.
Lateral inhibition by interneurons enhances contrast and odor discrimination.
Higher Brain Processing
Odor signals reach:
Piriform cortex: Conscious odor perception.
Amygdala: Emotional response to odors.
Hippocampus & entorhinal cortex: Odor memory and association.
Orbitofrontal cortex: Integration with taste (flavor perception).
Unique Features
Olfaction is the only sensory system that bypasses the thalamus for its primary cortical projection.
Olfactory neurons regenerate every 30–60 days, unlike most neurons.
Strong links with emotion and memory (limbic system connections).
✅ In summary:
The olfactory system consists of specialized receptor neurons in the nasal epithelium that detect odorants, transmit signals to the olfactory bulb, and then relay information to the olfactory cortex and limbic system, where odors are perceived, discriminated, and linked to memory and emotion.
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The sense of smell (olfaction) monitors chemicals and determine the flavor and palatability of foods and beverages
It warns of dangerous environmental conditions, including fire, air pollution, leaking natural gas, and bacteria-laden foodstuffs. trace the olfactory nerve from its receptor cells, located in the nasal epithelium, to the olfactory cortex and beyond.
It will highlight some of the unique characteristics of certain cells within the olfactory pathway, and the connection of the pathway to memory (and behavior) related brain regions.
| Olfactory cells | Olfactory receptor cells (sense odor and contain cilia), supporting cells, basal (stem) cells (replacing old and damaged olfactory receptor cells). |
| Olfactory nerve | CN I formed out of a collection of olfactory receptor cell axons, which pass through the cribriform plate and into the roof of the nasal cavity. |
| Olfactory bulb | It is the relay station of the olfactory pathway and contains olfactory glomeruli. |
| Olfactory tract | It is made up of the axons of mitral relay neurons. |
| Olfactory striae | They are the medial and lateral divisions of the olfactory tract. |
| Olfactory cortex | Piriform cortex, amygdala, entorhinal cortex |
| Output destination | Orbitofrontal cortex, |
The olfactory system consist of a peripheral component and a central component.